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NXP Opens Doors with HID Global Collaboration

NXP Semiconductors N.V. has announced a strategic collaboration with HID Global. The HID Global Seos credential technology will be embedded in NXPs SmartMX-based secure element devices. Through the collaboration, NXP and HID Global aim to enable the use of wearable devices, to open electronic locks at commercial buildings, hotels and workplaces in the future. Additionally, NXP and HID Global are cooperating on a broad range of opportunities to expand the adoption of secure access to more applications and use cases.

Wearables manufacturers worldwide with the Seos-ready NXP chips can enable users with building and parking access, PC login, authentication to IT systems and cloud applications, secure print job collection, time and attendance, point of sale and automated cashless vending, along with numerous other use cases supported by Seos. HID Globals field programmers will support these use cases in Seos-ready wearables simply with the support of loading digital credentials of specified applications.

As the lines between personal and business use of devices continues to blur, the agreement with NXP marks an important step in HID Globals commitment to extend options that allow manufacturers and end users to carry trusted identities on more smart devices for existing and emerging use cases, said Stefan Widing, president and CEO of HID Global. It also reinforces the interoperability and potential for mass-market adoption of Seos by major industry players who seek open, standards-based technology that work in mixed technology environments.

Consumers should expect more from their wearables, said Sami Nassar vice president of cyber security solutions at NXP Semiconductors. Through this partnership and with the addition of Seos access onto NXP security elements, we created a powerful turnkey solution enabling wearables to provide access to enterprise, buildings and homes with a simple tap. NXP customers and partners will have even more options in logical and physical access when embedding a secure element in wearable devices.

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